Engineering Design with
SOLIDWORKS 2019
®
A Step-by-Step Project Based Approach
Utilizing 3D Solid Modeling
David C. Planchard, CSWP,
SOLIDWORKS Accredited Educator
SDC
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Project 4
Fundamentals of Drawing
Below are the desired outcomes and usage competencies based on the completion of
Project 4.
Project Desired Outcomes:
Usage Competencies:
•
B-ANSI-MM Drawing Template.
•
Generate a Drawing Template with
Document Properties and Sheet
Properties.
•
CUSTOM-B Sheet Format.
•
Produce a Sheet Format with Custom
Sheet Properties, Title block, Company
logo and more.
•
GUIDE Drawing.
•
Create Standard Orthographic, Auxiliary,
Detail and Section views.
•
Insert, create, and modify dimensions and
annotations.
•
Knowledge to develop and incorporate a
Bill of Materials with Custom Properties.
•
GUIDE-ROD Drawing with a Bill
of Materials.
PAGE 4 - 1
Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Notes:
PAGE 4 - 2
Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Project 4 - Fundamentals of Drawing
Project Objective
Provide an understanding of Drawing Templates, Part drawings, Assembly drawings,
details and annotations.
Create a B-ANSI-MM Drawing Template. Create a CUSTOM-B Sheet Format. The
Drawing Template contains Document Property settings. The Sheet Format contains a
Company logo, Title block, Revision table and Sheet information.
Create the GUIDE drawing. Display Standard Orthographic, Section, Auxiliary and
Detail drawing views. Insert, create and modify part and component dimensions.
Create an Isometric exploded GUIDE-ROD assembly drawing with a Bill of Materials.
Obtain knowledge to develop and incorporate a Bill of Materials with Custom Properties.
On the completion of this project, you will be able to:
•
Create a new Drawing Template.
•
Generate a customized Sheet Format with Custom Properties.
•
Open, Save and Close Drawing documents.
•
Produce a Bill of Materials with Custom Properties.
•
Insert and position views on a Multi Sheet drawing.
•
Set the Dimension Layers.
•
Insert, move and modify dimensions from a part into a drawing view.
•
Insert Annotations: Center Mark, Centerline, Notes, Hole Callouts and Balloons.
•
Use Edit Sheet Format and Edit Sheet mode.
•
Insert a Revision table.
•
Modify dimensioning scheme.
•
Create parametric drawing notes.
•
Link notes in the Title block to SOLIDWORKS properties.
PAGE 4 - 3
Fundamentals of Drawing
•
Rename parts and drawings.
•
Insert a Center of Mass point.
Engineering Design with SOLIDWORKS® 2019
Project Situation
The individual parts and assembly are completed. What is the next step? You are required
to create drawings for various internal departments, namely production, purchasing,
engineering, inspection and manufacturing. Each drawing contains unique information
and specific footnotes. Example: A manufacturing drawing would require information on
assembly, Bill of Materials, fabrication techniques and references to other relative
documents.
Project Overview
Generate two drawings in this project:
•
GUIDE drawing with a customized Sheet Format.
•
GUIDE-ROD assembly drawing with a Bill of Materials.
The GUIDE drawing contains three Standard Orthographic views and an Isometric view.
Do you remember what the three Principle Orthographic Standard views are? They are
Top, Front and Right side (Third Angle Projection).
Three new views are introduced in this project: Detailed view, Section view and
Auxiliary view. Orient the views to fit the drawing sheet. Incorporate the GUIDE
dimensions into the drawing with inserted Annotations.
Detail View
Section View
Isometric View
Top View
Auxiliary View
Front View
Right View
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
The GUIDE-ROD assembly
drawing contains an Isometric
Exploded view.
The drawing contains a Bill of
Materials with balloon text with
bent leaders and magnetic lines.
Both drawings utilize a custom
Sheet Format containing a
Company logo, Title block and
Sheet information.
There are two major design
modes used to develop a
SOLIDWORKS drawing:
•
Edit Sheet Format.
•
Edit Sheet.
The Edit Sheet Format mode provides the ability
to:
•
Define the Title block size and
text headings.
•
Incorporate a company logo.
•
Add a picture, design, company
text and more.
The Edit Sheet mode provides the
ability to:
•
Add or modify drawing views.
•
Add or modify drawing view
dimensions.
•
Add or modify text and more.
Drawing Template and Sheet Format
The foundation of a SOLIDWORKS drawing document is the Drawing Template.
Drawing size, drawing standards, company information, manufacturing, and or assembly
requirements, units and other properties are defined in the Drawing Template.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
The Sheet Format is incorporated into the Drawing Template. The
Sheet Format contains the border, Title block information, revision
block information, company name, and or company logo
information, Custom Properties, and SOLIDWORKS Properties.
Custom Properties and SOLIDWORKS Properties are shared
values between documents.
Utilize the standard B (ANSI) Landscape size Drawing Template
with no Sheet Format. Set the Units, Font and Layers. Modify a B
(ANSI) Landscape size Sheet Format to create a Custom Sheet
Format and Custom Drawing Template.
1. Set Sheet Properties and Document Properties for the Drawing
Template.
2. Insert Custom Properties: CompanyName, Revision, Number,
DrawnBy, DrawnDate, Company Logo, Third Angle Projection
Logo, etc. for the Sheet Format.
3. Save the Custom Drawing
Template and Custom Sheet
Format in the MY-TEMPLATE
file folder.
Top, Front, Right
views of part
PART/
ASSEMBLY
SOLIDWORKS
Drawing
Sheet
Format
TITLE BLOCK
LOGO
CUSTOM
PROPERTIES
Drawing
Template
ANSI
UNITS – MM
FONT
ARROWS
LINE STYLES
LAYERS
PAGE 4 - 6
Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Views from the part or assembly are inserted
into the SOLIDWORKS Drawing.
A Third Angle Projection scheme is illustrated
in this project. For non-ANSI dimension
standards, the dimensioning techniques are the
same, even if the displayed arrows and text size
are different.
For printers supporting millimeter paper sizes,
select A3 (ANSI) Landscape (420mm x
297mm).
The default Drawing Templates with Sheet Format displayed contain predefined Title
block Notes linked to Custom Properties and SOLIDWORKS Properties.
Activity: Create a Drawing Template
Close all documents.
1)
Click Window, Close All from the Menu bar.
Create a B (ANSI) Landscape, Third Angle Projection drawing document.
2)
Click New
3)
Double-click Drawing from the Templates
tab.
4)
If needed uncheck the Only show
standard formats box.
5)
Select B (ANSI) Landscape from the
Standard sheet size box.
6)
Click OK from the Sheet Format/Size dialog.
At this time accept the default sheet
properties.
7)
Click Cancel
from the Model View
PropertyManager. Draw1 is the default
drawing name. Sheet1 is the default first
sheet name.
from the Menu bar.
If the Start command when creating new
drawing option is checked, the Model View PropertyManager is
selected by default.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
You can define drawing sheet zones on a sheet format for the
purpose of providing locations where drawing views and
annotations reside on the drawing.
The B (ANSI) Landscape Standard Sheet border defines
the drawing size, 17″ x 11″ (431.8mm x 279.4mm).
Expand Sheet1 in the FeatureManager. Right-click
Sheet 1 and view your options. The purpose of this book
is to expose the new user to various tools and methods.
Use annotation notes and balloons to identify which
drawing zone they are in. As you move an annotation in
the Graphics area, the drawing zone updates to the
current zone. You can add the current zone to an
annotation by clicking an open space within the drawing
view's bounding box while typing the annotation.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Set Drawing Size, Sheet Properties and Document Properties for the
Drawing Template. Sheet Properties control Sheet Size, Sheet Scale and
Type of Projection. Document Properties control the display of
dimensions, annotations and symbols in the drawing.
Set Sheet Properties. View your options in the Sheet
Properties dialog box.
8)
Right-click in the Graphics window.
9)
Click Properties
. The Sheet Properties dialog
box is displayed. If needed, expand the drop-down
menu to view the Properties command.
10)
Select Sheet Scale 1:1.
11)
Select B (ANSI) Landscape from the Standard
sheet size box.
12)
If needed uncheck the Display sheet format box.
13)
Select Third Angle for Type of projection.
14)
Click Apply Changes from the Sheet Properties
dialog box.
Set Document Properties. Set drafting standard, units, and
precision.
15)
Click Options
the Menu bar.
, Document Properties tab from
16)
Select ANSI for Overall drafting standard.
17)
Click the Units folder.
18)
Select MMGS for Unit system.
19)
Select .12 for basic unit length decimal place.
20)
Select None for basic unit angle decimal place.
Detailing options provide the ability to address dimensioning
standards, text style, center marks, extension lines, arrow
styles, tolerance and precision.
There are numerous text styles and sizes available in
SOLIDWORKS. Companies develop drawing format
standards and use specific text height for Metric and English
drawings.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Numerous engineering drawings use the following format:
•
Font: Century Gothic - All capital letters.
•
Text height: .125in. or 3mm for drawings up to B (ANSI) Size, 17in. x 22in.
•
Text height: .156in. or 5mm for drawings larger than B (ANSI) Size, 17in x 22in.
•
Arrowheads: Solid filled with a 1:3
ratio of arrow width to arrow
height.
Set the Annotations font height.
21) Click the Annotations folder.
22)
Click the Font button.
23)
Click the Units button.
24)
Enter 3.00mm for Height.
25)
Enter 1.00mm for Space.
26)
Click OK.
Change the Arrow Height.
Click the Dimensions folder from
the Document Properties column as
illustrated.
27)
28)
Enter 1mm for arrow Height.
29)
Enter 3mm for arrow Width.
30)
Enter 6mm for arrow Length.
Set Section/Views size.
Expand the Views folder from the
Document Properties column.
31)
32)
Click the Section folder.
33)
Enter 2mm for arrow Height.
34)
Enter 6mm for arrow Width.
35)
Enter 12mm for arrow Length.
36)
Click OK from the Document
Properties - Section dialog box.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Drawing Layers organize dimensions, annotations and geometry. Create
a new drawing layer to contain dimensions and notes. Create a second
drawing layer to contain hidden feature dimensions.
to turn On/Off Layers. Dimensions placed
Select the Show/Hide eye
on the hidden layers are turned on and off for clarity and can be recalled
for parametric annotations.
Display the Layer toolbar.
37) Right-click in the gray area to the right of the word Help in the Menu bar.
Check Layer if the Layer toolbar is not active. The Layer toolbar is
displayed. Click and drag the Layer toolbar to the center of the Graphics
window.
38)
Click the Layer Properties
file folder from the Layer toolbar. The
Layers dialog box is displayed.
Create the Dimension Layer.
39) Click the New button. Enter Dim in the Name
column.
40)
Double-click under the Description column.
Enter Dimensions in the Description column.
Create the Notes Layer.
41) Click the New button. Enter Notes for Name.
Double-click under the Description column.
42)
Enter General Notes for Description.
Create the Hidden Dims Layer.
43) Click the New button. Enter Hidden Dims for
Name. Double-click under the Description
column. Enter Hidden Insert Dimensions for
Description.
Dimensions placed on the Hidden Dims Layer are not displayed on the drawing until the
Hidden Dims Layer status is On. Set the Layer Color to locate dimensions on this layer
easily.
Turn the Hidden
Insert Dimension
Layer Off.
44) Click On/Off
. The row is
displayed in black.
Set the Layer
Color.
Click the small black square in the Hidden Dims row as illustrated.
45)
PAGE 4 - 11
Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Select a Color Swatch from the Color dialog box.
46) Select Dark Blue.
47)
Click OK.
48)
Click OK from the Layers dialog box.
The current Layer is Hidden Dims. Set the current
Layer to None before saving the Drawing
Template.
Set None for Layer.
49) Click the Layer drop-down arrow.
50)
Click None. None is displayed in the Layer toolbar.
The Drawing Template contains the drawing Size, Document Properties
and Layers. The Overall drafting standard is ANSI and the Units are in
millimeters. The current Layer is set to None. The Drawing Template
requires a Sheet Format. The Sheet Format contains Title block
information. The Title block contains vital part or assembly information.
Each company may have a unique version of a Title block.
Sheet Format and Title block
The Sheet Format contains the Title block, Revision block, Company logo, Custom
Properties, Zones, etc. The Title block contains text fields linked to System Properties
and Custom Properties.
System Properties are determined from the SOLIDWORKS documents. Custom Property
values are assigned to named variables. Save time. Utilize System Properties and define
Custom Properties in your Sheet Formats.
System Properties
Linked to fields in
default Sheet
Formats:
Custom Properties of drawings linked to fields
in default Sheet Formats:
Custom Properties
of parts and
assemblies linked
to fields in default
Sheet Formats:
SW-File Name (in
DWG. NO. field):
CompanyName:
EngineeringApproval:
Description (in
TITLE field):
SW-Sheet Scale:
CheckedBy:
EngAppDate:
Weight:
SW-Current Sheet:
CheckedDate:
ManufacturingApproval:
Material:
SW-Total Sheets:
DrawnBy:
MfgAppDate:
Finish:
DrawnDate:
QAApproval:
Revision:
EngineeringApproval:
QAAppDate:
PAGE 4 - 12
Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Utilize the standard landscape B (ANSI) Sheet Format (17in. x 11in.) or the standard-A
(ANSI) Sheet Format (420mm x 297mm) to create a Custom Sheet Format.
Activity: Sheet Format and Title block
Display the standard B (ANSI) Landscape Sheet Format.
51) Right-click in the Graphics window. Expand the drop-down menu.
52)
Click Properties. The Sheet Properties dialog box is displayed.
53)
Click the Standard sheet size box.
54)
Select B (ANSI) Landscape.
55)
Check the Display sheet format box. The default
Sheet Format, b - landscape.slddrt is displayed.
56)
Click Apply Changes from the Sheet Properties
dialog box.
The default Sheet Format is displayed in the
Graphics window. The FeatureManager displays
Draw1, Sheet 1.
A SOLIDWORKS drawing contains two edit
modes:
1. Edit Sheet.
2. Edit Sheet Format.
Insert views and dimensions in the Edit Sheet
mode.
Modify the Sheet Format text, lines or Title block
information in the Edit Sheet Format mode.
The CompanyName Custom Property is located in
the Title block above the TITLE box. There is no
value defined for CompanyName. A small text box
indicates an empty field. Define a value for the
Custom Property CompanyName. Example: D&M
ENGINEERING.
PAGE 4 - 13
Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Activate the Edit Sheet Format mode.
57) Right-click in the Graphics window.
58)
Click Edit Sheet Format. The Title block lines turn blue.
View the right side of the Title block.
59)
Click Zoom to Area
Title block.
60)
Click Zoom to Area
. Zoom in on the Sheet Format
to deactivate.
Define CompanyName Custom Property.
61) Position the mouse pointer in the middle of the box above
the TITLE box. The mouse pointer displays Sheet Format1.
The box also contains the hidden text, linked to the
CompanyName Custom Property.
62)
Click File, Properties from the Menu bar.
The Summary Information dialog box is
displayed.
63)
Click the Custom tab.
64)
Click inside the Property Name box.
65)
Click the drop-down arrow
Property Name box.
66)
Select CompanyName from the Property
list.
67)
Enter D&M ENGINEERING (or your
company or school name) in the Value/Text
Expression box.
68)
Click inside the Evaluated Value box. The
CompanyName is displayed in the
Evaluated Value box.
69)
Click OK. The Custom Property
“$PRP:COMPANYNAME,” Value “D&M
ENGINEERING” is displayed in the Title
block.
in the
Modify the font size.
70) Double-click D&M ENGINEERING. The
Formatting dialog box and the Note
PropertyManager is displayed.
PAGE 4 - 14
Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
71)
Click the drop-down arrows to set the Text Font and Height.
72)
Click the Style buttons and Justification buttons to modify the selected text.
73)
Click OK
from the Note PropertyManager. View the results.
Click a position outside the selected text box to save and exit the text.
The Tolerance block is located in the Title block. The Tolerance block provides
information to the manufacturer on the minimum and maximum variation for each
dimension on the drawing. If a specific tolerance or note is provided on the drawing, the
specific tolerance or note will override the information in the Tolerance block.
General tolerance values are based on the design requirements and the manufacturing
process.
Create Sheet Formats for different parts types. Example: sheet metal parts, plastic
parts and high precision machined parts. Create Sheet Formats for each category of parts
that are manufactured with unique sets of Title block notes.
Modify the Tolerance block in the Sheet Format for ASME Y14.5-2009 machined,
millimeter parts. Delete unnecessary text. The FRACTIONAL text refers to inches. The
BEND text refers to sheet metal parts. The Three
Decimal Place text is not required for this millimeter
part.
Modify the Tolerance Note.
74) Double-click the text INTERPRET
GEOMETRIC TOLERANCING PER:
75)
Enter ASME Y14.5 as illustrated.
76)
Click OK
from the Note
PropertyManager.
77)
Double-click inside the Tolerance block
text. The Formatting dialog box and the
Note PropertyManager is displayed.
78)
Delete the text INCHES.
PAGE 4 - 15
Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
79)
Enter MILLIMETERS.
80)
Delete the line FRACTIONAL +-.
81)
Delete the text BEND +-.
Enter ANGULAR tolerance.
Click a position at the end of the line.
82)
83)
Enter 0. Click Add Symbol
84)
Select Degree from the Modifying Symbols library.
85)
Enter 30′ for minutes of a degree.
from the Text Format box.
Modify the TWO and THREE PLACE DECIMAL LINES.
86) Delete the TWO and THREE PLACE DECIMAL
lines.
87)
Enter ONE PLACE DECIMAL +- 0.5.
88)
Enter TWO PLACE DECIMAL +- 0.15.
89)
Click OK
90)
Right-click Edit Sheet in the Graphics window.
from the Note PropertyManager.
Save Draw1. Fit the drawing to the Graphics window.
Press the f key.
91)
92)
Click Save
. Accept the default name. View the results.
Various symbols are available through the Symbol button in the Text dialog box. The ±
symbol is located in the Modify Symbols list. The ± symbol is displayed as <MOD-PM>.
The degree symbol  is displayed as <MOD-DEG>.
Interpretation of tolerances is as follows:
•
The angular dimension 110 is machined between 109.5 and 110.5.
•
The dimension 2.5 is machined between 2.0 and 3.0.
•
The Guide Hole dimension 10.000/10.015 is machined according to the specific
tolerance on the drawing.
PAGE 4 - 16
Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Company Logo
A Company logo is normally located in the Title
block of the drawing. You can create your own
Company logo or copy and paste an existing
picture.
If you have your own Logo, skip the process of
copying and applying the LOGO folder and file
shown below.
Activity: Insert a Company Logo
Insert a Company or School Logo.
93) Copy the LOGO folder to your hard drive. Note: If you have
your own Logo, use it for the drawing.
94)
Right-click Edit Sheet Format in the Graphics window.
95)
Click Insert, Picture from the Menu bar. The Open dialog
box is displayed.
96)
Double-click the Logo.jpg file. The Sketch Picture
PropertyManager is displayed.
97)
Un-check the Enable scale tool box.
98)
Un-check the Lock aspect ratio box.
99)
Drag the picture handles to size the
picture to the left side of the Title block.
100) Click OK
from the Sketch Picture
PropertyManager.
Text can be added to create a custom
logo. You can insert a picture or an object.
PAGE 4 - 17
Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Return to the Edit Sheet mode.
101) Right-click in the
Graphics window.
102) Click Edit Sheet. The
Title block is displayed
in black.
Fit the Sheet Format to the Graphics window.
103) Press the f key.
Draw1 displays Editing Sheet1 in the Status bar. The Title block is displayed in black
when in Edit Sheet mode.
Save Sheet Format and Save As Drawing Template
Save the drawing document in the Graphics window in two forms: Sheet Format and
Drawing Template. Save the Sheet Format as a custom Sheet Format named
CUSTOM-B. Use the CUSTOM-B (ANSI) Sheet Format for the drawings in this project.
The Sheet format file extension is .slddrt.
The Drawing Template can be displayed with or without the Sheet Format. Combine the
Sheet Format with the Drawing Template to create a custom Drawing Template named
B-ANSI-MM. Utilize the File, Save As option to save a Drawing Template. The Drawing
Template file extension is .drwdot.
PAGE 4 - 18
Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Select the Save as type option first, then select the Save in folder to avoid saving in
default SOLIDWORKS installation directories.
The System Options, File Locations, Document Templates option is only valid for the
current session of SOLIDWORKS in some network locations. Set the File Locations
option in order to view the MY-TEMPLATES tab in the New Document dialog box.
Activity: Save Sheet Format. Utilize the Save As Option for the Drawing Template.
Save the Sheet Format.
104) Click File, Save Sheet Format from the Menu bar. The Save Sheet Format dialog box is
displayed. The file extension for Sheet Format is .slddrt.
105) Select ENGDESIGN-W-SOLIDWORKS\MY-TEMPLATES for Save In File Folder.
106) Enter CUSTOM-B for File name.
107) Click Save from the Save Sheet Format dialog box.
The Automatic Border tool provides the ability to control every
aspect of a sheet format’s border, including zone layout and border
size.
Save the Drawing Template.
108) Click Save As from the Menu bar.
109) Click Drawing Templates (*.drwdot)
from the Save as type box.
110) Select ENGDESIGN-W-
SOLIDWORKS\MY-TEMPLATES for
Save In File Folder.
111) Enter B-ANSI-MM for File name.
112) Click Save.
PAGE 4 - 19
Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
If you created the MY-TEMPLATES tab in Project 2, skip this section.
Set System Options - File Locations.
113) Click Options
from the Menu bar. The System Options
General dialog box is displayed.
114) Click the File Locations folder.
Add a new tab.
115) Click the Add button.
116) Browse to the ENGDESIGN-W-SOLIDWORKS\MY-
TEMPLATES folder.
117) Click Select Folder. You should see the new folder
added to the Document Templates. If needed, click
the Move Down button.
118) Click OK from the System Options, File Locations
dialog box.
119) Click Yes to the SOLIDWORKS dialog box.
The SOLIDWORKS dialog box displays the
new Folder location.
120) Click Yes.
121) Click Yes.
Close all files.
122) Click Window, Close All from the Menu
bar. SOLIDWORKS remains open, and no
documents are displayed.
Utilize Drawing Template descriptive filenames that contain the size, dimension standard
and units.
Combine customized Drawing Templates and Sheet Formats to match your
company’s drawing standards. Save the empty Drawing Template and Sheet Format
separately to reuse information.
PAGE 4 - 20
Engineering Design with SOLIDWORKS® 2019
Additional details on
Drawing Templates, Sheet Format
and Custom Properties are
available in SOLIDWORKS Help
Topics.
Fundamentals of Drawing
Empty
Drawing
Template
Custom
Sheet
Format
ANSI
Keywords: Documents
(templates, properties); Sheet
Formats (new, new drawings,
note text); Properties (drawing
sheets); Customized Drawing
Sheet Formats.
Custom
Drawing
Template
A Custom
Properties
B Custom
Properties
ISO
MACHINE
PARTS
PLASTIC
PARTS
SHEETMETAL
PARTS
Review Drawing
Templates
A custom Drawing Template was created from the default
Drawing Template. You modified Sheet Properties and
Document Properties to control the Sheet size, scale,
annotations, dimensions and layers.
The Sheet Format contained Title block and Custom Property
information. You inserted a Company Logo and modified the
Title block.
The Save Sheet Format option was utilized to save the
CUSTOM-B.SLDDRT Sheet Format. The File, Save As
option was utilized to save the B-ANSI-MM.DRWDOT
Template. The Sheet Format and Drawing Template were
saved in the MY-TEMPLATES folder.
As an exercise, explore the sub-folders and their options under Sheet Format1.
PAGE 4 - 21
Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
GUIDE Part - Modify
A drawing contains part views, geometric dimensioning and tolerances, centerlines,
center marks, notes, custom properties and other related information. Perform the
following tasks before starting the GUIDE drawing:
•
Verify the part. The drawing requires the associated part.
•
View dimensions in each part. Step through each feature of the part and review all
dimensions.
•
Review the dimension scheme to determine the required dimensions and notes to
manufacture the part.
Activity: GUIDE Part - Modify
Open the GUIDE part.
123) Click Open
from the Menu bar.
124) Select the folder that the GUIDE document is in.
Modify the dimensions.
125) Double-click GUIDE.
126) Click Hidden Lines Visible
View toolbar.
from the Heads-up
127) Double-click Base-Extrude from the GUIDE
FeatureManager.
128) Click the 80 dimension.
129) Enter 100mm. Click inside the Graphics window.
Display a Shaded With Edges view. Save the GUIDE part.
130) Click Shaded With Edges
from the Heads-up View
toolbar.
131) Click Save
.
Review part history with the Rollback bar to understand how the part was created.
Position the Rollback bar at the top of the FeatureManager. Drag the Rollback bar below
each feature. When working between features, right-click in the FeatureManager. Select
Roll to Previous\Roll to End.
PAGE 4 - 22
Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
GUIDE Part - Drawing
The GUIDE drawing consists of multiple views, dimensions and annotations. The
GUIDE part was designed for symmetry. Add or redefine dimensions in the drawing to
adhere to a Drawing Standard. Add dimensions and notes to the drawing in order to
correctly manufacture the part.
Address the dimensions for three features:
•
The right Slot Cut is not dimensioned to an ASME Y14 standard.
•
No dimensions exist for the left Mirror Slot Cut.
•
The Guide Hole and Linear Pattern of Tapped Holes require notes.
The GUIDE part remains open. Create a new GUIDE drawing. Utilize the B-ANSI-MM
tool to insert the Front view into Sheet1.
Drawing Template. Utilize the Model View
Utilize the Auto-start Projected View option to project the Top, Right and Isometric
views from the Front view. Note: You can also use the View Palette in the Task Pane.
Activity: GUIDE Part - Drawing
Create the GUIDE Drawing.
132) Click New
from the Menu bar.
133) Double-click B-ANSI-MM from the MY-TEMPLATES tab. The
Model View PropertyManager
is displayed.
134) Click Cancel
from the
Model View PropertyManager.
The Draw# FeatureManager is
displayed.
Review the Draw# FeatureManager.
135) Expand Sheet1 from the
FeatureManager.
136) Expand Sheet Format1 from
the FeatureManager. View your
options.
The current drawing name is
Draw2 if the second new drawing is created in the same session of SOLIDWORKS. The
current sheet name is Sheet1. Sheet1 is the current Sheet.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Insert four Drawing Views.
137) Click Model View
from the View Layout tab in the
CommandManager. The Model View PropertyManager is
displayed.
138) Double-click GUIDE from the Part/Assembly to Insert box.
Insert four views.
139) Check the Create multiple views box.
140) Click Front, Top and Right from the Orientation box. Note: All
four views are selected. *Isometric should be selected by
default.
141) Click OK
from the Model View PropertyManager. Four
views are displayed on Sheet1.
142) Click inside the Isometric view boundary. Drawing View4
PropertyManager is displayed.
143) Click Shaded With Edges
from the Display Style box.
144) Click OK
from the Drawing View4 PropertyManager. If required, hide any annotations,
origins or dimensions as illustrated.
By default, the Center marks-holes box is checked under Options, Document
Properties, Detailing from the Menu bar.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Save the GUIDE drawing. Enter name.
145) Click Save As from the Menu bar.
146) Select PROJECTS for Save in folder.
147) Enter GUIDE for file name. Drawing is the default Save
as type.
148) Click Save. Note: The correct display modes need to be selected, dimensions to be added,
along with Center Marks, Centerlines, additional views, Custom Properties, etc.
The DWG. NO. box in the Title block displays the part
File name, GUIDE. The TITLE: box in the Title block
displays GUIDE SUPPORT.
Predefined text in the CUSTOM-B Sheet Format links
the Properties: $PRPSHEET:“Description” and
$PRP:“SW-FileName.” The Properties were defined in
the GUIDE part utilizing File, Save As. Properties in
the Title block are passed from the part to the drawing.
Always confirm the File name and Save in folder.
Projects deal with multiple File names and folders.
Select Save as type from the drop-down list. Do not
enter the extension. The file extension is entered
automatically.
Each drawing has a unique file name. Drawing file
names end with a .SLDDRW suffix. Part file names end
with a .SLDPRT suffix. A drawing or part file can have
the same prefix. A drawing or part file can’t have the
same suffix.
Example: Drawing file name GUIDE.SLDDRW. Part
file name GUIDE.SLDPRT. The current file name is
GUIDE.SLDDRW.
The GUIDE drawing contains three Principle views
(Standard Orthographic views): Front, Top, Right and
an Isometric view. You created the views with the
Model View option.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Drawing views can be inserted as follows:
•
Utilize the Model View tool from the View Layout tab in
the CommandManager.
•
Drag and drop an active part view from the View Palette
located in the Task Pane as illustrated. With an open part,
drag and drop the selected view into the active drawing
sheet.
•
Drag and drop a part into the drawing to create three
Standard Views.
•
Predefine views in a custom Drawing Template.
•
Drag a hyperlink through Internet Explorer.
The Top view and Right view are projected off the view
you place in the Front view location. Any view can be
dragged and dropped into the Front view location of a
drawing.
The View Palette from the Task Pane populates when you:
•
Click Make Drawing from Part/Assembly.
•
Browse to a document from the View Palette.
•
Select from a list of open documents in the View
Palette.
Move Views and Properties of the Sheet
The GUIDE drawing contains four views. Reposition the
view on a drawing. Provide approximately 1in. - 2in.
(25mm - 50mm) between each view for dimension
placement.
Move Views on Sheet1 to create space for additional
Drawing View placement. The mouse pointer provides feedback in both the Drawing
Sheet
and Drawing View
modes. The mouse pointer displays the Drawing
Sheet
icon when the Sheet properties and commands are executed.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
The mouse pointer displays the Drawing View
the View properties and commands are executed.
icon when
View the mouse pointer for feedback to select Sheet,
View, and Component and Edge properties in the Drawing.
Sheet Properties
•
Sheet Properties display properties of the selected sheet.
Right-click in the sheet boundary
commands.
to view the available
View Properties
•
View Properties display properties of the selected view.
view boundary. Modify the View
Right-click inside the
Properties in the Display Style box or the View Toolbar.
Component Properties
•
Component Properties display properties of the selected
component. Right-click on the face of the component
View the available options.
Edge Properties
•
Edge Properties display
properties of the selected
geometry. Right-click on
an edge
inside the
view boundary. View the
available options.
PAGE 4 - 27
.
Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Activity: Move Views and Properties of the Sheet
Modify and move the front view.
149) Click inside the Drawing View1 (Front) view boundary. The
mouse pointer displays the Drawing View
view boundary is displayed in blue.
150) Click Hidden Lines Visible
icon. The
from the Display Style box.
151) Position the mouse pointer on the edge of the Front view
until the Drawing Move View
icon is displayed.
152) Click and drag Drawing View1 in an upward vertical
direction. The Top and Right view move aligned to Drawing
View1 (Front).
Modify the top view.
153) Click inside the Top view boundary (Drawing View3). The
Drawing View3 PropertyManager is displayed.
154) Click Hidden Lines Removed
from the Display Style
box. Various display styles provide the ability to select and
view features of a part.
155) Click OK
from the Drawing View3 PropertyManager.
Later, address Centerlines, Center Marks, Tangent Edges
Removed, Display styles, Customer properties, etc. to
finish the drawing.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Select the dashed view boundary to move
a view in the drawing.
Auxiliary View, Section View, and Detail View
The GUIDE drawing requires additional
views to document the part. Insert an
Auxiliary view, Section view and Detail
view from the View Layout tab in the
CommandManager. Review the
following view terminology before you
begin the next activity.
Auxiliary View:
drawing tool
The Auxiliary view
provides the ability to display a plane
parallel to an angled plane with true
dimensions.
A primary Auxiliary view is hinged to
one of the six Principle Orthographic
views. Create a Primary Auxiliary view
that references the angled edge in the
Front view.
Section View:
The Section view
drawing tool provides the
ability to display the interior features of a part.
Define a cutting plane with a sketched line in a
view perpendicular to the Section view.
Use the Section view sketch mode in conjunction
with the Section tool user interface to create a
Section view in the Top view.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Detail View:
drawing tool provides the ability to enlarge
The Detail view
an area of an existing view. Specify location, shape and scale.
Create a Detail view from a Section view with a 3:2 scale.
The book is designed to expose the new user to many tools,
techniques and procedures. It does not always use the most direct
tool or process.
You can add multiple breaks to models using the Model
Break View tool. The model breaks are saved as configurations. Model break views are
helpful when you need to shorten components especially for technical and marketing
purposes. Additionally, the Model Break View tool lets you display breaks on drawing
views per ASME Y14.3.
Activity: Auxiliary Drawing View
Insert an Auxiliary drawing view.
156) Click the View Layout tab from the
CommandManager.
157) Click the Auxiliary View
drawing
tool. The Auxiliary View
PropertyManager is displayed.
158) Click the right angled edge of the
GUIDE in the Front view as
illustrated.
159) Click a position to the right and up from the Front view as
illustrated.
Position the Auxiliary View.
160) Click and drag the section line A-A midpoint toward Drawing
View1. The default label A is displayed in the Arrow box.
161) Click the OK
from the PropertyManager.
Rename the new view.
162) Rename the new view (Drawing View#) to Auxiliary in the
FeatureManager as illustrated.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Activity: Section Drawing View
Insert a Section drawing view.
163) Click the Section View
drawing tool. The Section View
PropertyManager is displayed. The Section tab is selected by
default.
164) Click the Horizontal Cutting Line button as illustrated.
165) Locate the midpoint of the left vertical line as illustrated.
166) Click the midpoint.
Position the Section drawing View.
167) Click a position above the Top view. The section
arrows point downward.
168) If needed, check Flip direction from the Section Line
box. The section arrows point upward. If required,
enter B for Section View Name in the Label box.
169) Click OK
from the Section View B-B
PropertyManager. Section View B-B is displayed in
the FeatureManager. If required, hide any
annotations.
170) Insert a CenterMark in the Section view. Utilize the
CenterMark tool under the Annotations tab.
Save the drawing.
171) Click Save
.
The material in the GUIDE part determines the
hatch pattern in the GUIDE drawing.
Use the Pack and Go tool to save and gather all related files
for a model design (parts, assemblies, drawings, references,
design tables, Design Binder content, decals, appearances, and
scenes and SOLIDWORKS Simulation results) into a single
folder or zip file.
PAGE 4 - 31
Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Activity: Detail Drawing View
Insert a Detail drawing view.
172) Click the Detail View
drawing tool. The
Detail View PropertyManager is displayed.
Sketch a Detail circle.
173) Click the center point of the Guide Hole in
the Section view.
174) Click a position to the lower left of the Guide
Hole to complete the circle.
Position the Detail View.
175) Click a position to the right of the Section
View. If required, enter C for Detail View Name
in the Label box.
Modify the drawing view scale.
176) Check Use custom scale option.
177) Select User Defined. Enter 3:2 in the Scale
from the Detail View C
box. Click OK
PropertyManager. Detail View C is displayed in
the FeatureManager. Note: If needed, insert a CenterMark in the
Detail view. Utilize the CenterMark tool under the Annotations tab.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Save the GUIDE drawing.
178) Click Save
.
Partial Auxiliary Drawing View - Crop Drawing View
Create a Partial Auxiliary view from the Full Auxiliary view. Sketch a closed profile in
the active Auxiliary view. Create the Profile with a closed Spline. Create a Partial
Auxiliary view.
Crop the view. The 6mm dimension references the centerline from the Guide Hole. For
Quality Assurance and Inspection of the GUIDE part, add a dimension that references the
Temporary Axis of the Guide Hole. Sketch a centerline collinear with the Temporary
Axis.
Activity: Partial Auxiliary Drawing View - Crop Drawing View
Select the view.
179) Click Zoom to Area
from the Heads-up View toolbar.
180) Zoom in on the Auxiliary view.
181) Click Zoom to Area
to deactivate.
182) Click inside the Auxiliary view boundary. The Auxiliary
PropertyManager is displayed.
Display Hidden Lines Removed.
183) Click Hidden Lines Removed
.
Sketch a closed Spline profile.
184) Click the Sketch tab from the CommandManager.
185) Click the Spline
Sketch tool.
186) Click five or more positions clockwise to create the
closed Spline as illustrated. The first point is Coincident
with the last point. The Sketch profile is closed.
Insert a Partial Auxiliary Drawing View.
187) Click the Crop View
drawing tool from the View
Layout tab in the CommandManager.
188) Click OK
from the Spline PropertyManager. The
Crop View is displayed on Sheet1.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Display the Temporary Axes and insert a sketched centerline.
189) Click inside the Auxiliary view boundary. The Auxiliary
PropertyManager is displayed.
190) Click View, Hide/Show, check Temporary Axes from the
Menu bar. The Temporary Axis for the Guide Hole is displayed.
191) Click Sketch tab from the CommandManager.
192) Click the Centerline
Sketch tool. The Insert Line
PropertyManager is displayed.
193) Sketch a centerline parallel above the Temporary axis. The
centerline extends approximately 5mm to the left and right of
the profile lines. If needed insert a Parallel relation to the
temporary axis.
194) Right-click Select to deselect the Centerline Sketch tool.
Add a Collinear relation between the centerline and temporary axis.
195) Click the centerline. The Line Properties PropertyManager is
displayed.
196) Hold the Ctrl key down.
197) Click the Temporary Axis. The
mouse pointer displays the Axis
icon. The Properties
feedback
PropertyManager is displayed.
Axis<1> and Line1 are displayed in
the Selected Entities box.
198) Release the Ctrl key.
199) Click Collinear from the Add
Relations box.
200) Click OK
from the Properties PropertyManager.
Hide the Temporary Axis.
201) Click View, Hide/Show, uncheck Temporary Axes from the
Menu bar.
Move the views to allow for ample spacing for dimensions and
notes.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Additional information on creating a New Drawing, Model View, Move View,
Auxiliary View, Section View, and Detail View are located in the SOLIDWORKS Help
Topics section. Keywords: New (drawing document), Auxiliary View, Detail View,
Section View and Crop View.
Review the GUIDE Drawing
You created a new drawing, GUIDE with the B-ANSI-MM Drawing Template. The
GUIDE drawing utilized the GUIDE part in the Model View PropertyManager. The
Model View PropertyManager allowed new views to be inserted with a View
Orientation. You selected Front, Top, Right and Isometric to position the GUIDE views.
Additional views were required to fully detail the GUIDE. You inserted the Auxiliary
Section, Detail, Partial Auxiliary and Crop view. You moved the views by dragging the
view boundary. The next step is to insert the dimensions and annotations to detail the
GUIDE drawing.
Display Modes and Performance
Display modes for a Drawing view are similar to a part. When
applying Shaded With Edges, select either Tangent edges removed
or Tangent edges As phantom from the System Options section.
Mechanical details require either the Hidden
Lines Visible mode or the Hidden Lines
Removed display mode. Select Shaded/Hidden
Lines Removed to display Auxiliary views to
avoid confusion.
Wireframe
Hidden Line Visible
Hidden Line Removed
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Shaded With Edges
Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Tangent Edges Visible provides clarity
for feature edges. To address the ASME
Y14.5 standard, use Tangent Edges With
Font (Phantom lines) or Tangent Edges
Removed. Right-click in the view
boundary to access the Tangent Edge
options.
Drawing views can be displayed in High
quality and Draft quality. In High quality,
all model information is loaded into
memory. By default, drawing views are
displayed in High quality.
In Draft quality, only minimum model
information is loaded into memory.
Utilize Draft quality for large assemblies
to increase performance.
Utilize Options, System Options,
Drawings, Display Style to control the
quality of a view.
By default, SOLIDWORKS will populate
Section and Detail views before other
views on your drawing.
Use the Pack and Go tool to save and
gather all related files for a model design
(parts, assemblies, drawings, references,
design tables, Design Binder content,
decals, appearances, and scenes, and
SOLIDWORKS Simulation results) into a single
folder or zip file. It’s one of the best tools to
utilize when you are trying to save a large
assembly or drawing with references and
SOLIDWORKS Toolbox components.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Detail Drawing
The design intent of this project is to work with dimensions inserted from parts and to
incorporate them into the drawings. Explore methods to move, hide and recreate
dimensions to adhere to a drawing standard.
There are other solutions to the dimensioning schemes illustrated in this project. Detail
drawings require dimensions, annotations, tolerance, materials, Engineering Change
Orders, authorization, etc. to release the part to manufacturing and other notes prior to
production.
Review a hypothetical “worst case” drawing situation. You just inserted dimensions from
a part into a drawing. The dimensions, extension lines and arrows are not in the correct
locations. How can you address the position of these details? Answer: Dimension to an
ASME Y14.5M standard.
No.
Situation:
1
Extension line crosses dimension
line. Dimensions not evenly spaced.
2
Largest dimension placed closest to
profile.
3
Leader lines overlapping.
4
Extension line crossing arrowhead.
5
Arrow gap too large.
6
Dimension pointing to feature in
another view. Missing dimension –
inserted into Detail view (not shown).
7
Dimension text over centerline, too
close to profile.
8
Dimension from other view – leader
line too long.
9
Dimension inside section lines.
10
No visible gap.
11
Arrows overlapping text.
12
Incorrect decimal display with whole
number (millimeter), no specified
tolerance.
Worst Case Drawing Situation
PAGE 4 - 37
Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
The ASME Y14.5 2009 standard defines an engineering drawing standard. Review the
twelve changes made to the drawing to meet the standard.
Dimensions are displayed
in MILLIMETERS.
No.
Preferred Application of
the Dimensions:
1
Extension lines do not cross
unless situation is
unavoidable. Stagger
dimension text.
2
Largest dimension placed
farthest from profile.
Dimensions are evenly
spaced and grouped.
3
Arrowheads do not overlap.
4
Break extension lines that
cross close to arrowhead.
5
Flip arrows to the inside.
6
Move dimensions to the view
that displays the outline of
the feature. Ensure that all
dimensions are accounted
for.
7
Move text off of reference
geometry (centerline).
8
Drag dimensions into their
correct view boundary.
Create reference dimensions
if required. Slant extension
lines to clearly illustrate
feature.
9
Locate dimensions outside
off section lines.
10
Create a visible gap between
extension lines and profile
lines.
11
Arrows do not overlap the
text.
12
Whole numbers displayed
with no zero and no decimal
point (millimeter).
Apply these dimension practices to the GUIDE drawing. Manufacturing utilizes detailed
drawings. A mistake on a drawing can cost your company a substantial loss in revenue.
The mistake could result in a customer liability lawsuit.
As the designer, dimension and annotate your parts clearly to avoid common problems
and mistakes.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Insert Dimensions from the part.
Dimensions you created for each part feature
are inserted into the drawing.
Cluttered
Select the first dimensions to display for the
Front view. Do not select the Import Items
into all Views option for complex drawings.
Dimension text is cluttered and difficult to
locate.
Follow a systematic, “one view at a time”
approach for complex drawings. Insert part
feature dimensions onto the Dim Layer for
this project.
Activity: Detail Drawing - Insert Model Items
Set the Dimension Layer.
202) Right-click in the drawing sheet.
203) Click Change Layer. The Change Layer dialog
box is displayed.
204) Select Dim from the drop-down menu.
Insert dimensions into Drawing View1 (Front).
205) Click inside the Drawing View1 boundary. The Drawing View1
PropertyManager is displayed.
206) Click the Model Items
tool from the Annotation tab in the
CommandManager. The Model Items PropertyManager is
displayed.
207) Select Entire model from the Source box. Drawing View1 is
displayed in the Destination box. At this time, do not click the Hole
callout button to import the Hole Wizard information into the
drawing. Accept the default settings as illustrated.
208) Click OK
from the Model Items PropertyManager. Dimensions
are displayed in the Front view.
In SOLIDWORKS, inserted dimensions in the drawing are
displayed in gray. Imported dimensions from the part are displayed
in black.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Drawing dimension location is dependent on:
•
Feature dimension creation.
•
Selected drawing views.
Note: The Import items into all views option, first inserts
dimensions into Section Views and Detail Views. The
remaining dimensions are distributed among the visible
views on the drawing.
Move Dimensions in the Same View
Move dimensions within the
same view. Use the mouse
pointer to drag dimensions and
leader lines to a new location.
Leader lines reference the size of
the profile. A gap must exist
between the profile lines and the
leader lines. Shorten the leader
lines to maintain a drawing
standard. Use the blue Arrow
control buttons to flip the
dimension arrows.
Insert part dimensions into the
Top view. The Top view
displays crowded dimensions.
Move the overall dimensions.
Move the Slot Cut dimensions.
Place dimensions in the view
where they display the most
detail. Move dimensions to the
Auxiliary View. Hide the
diameter dimensions and add
Hole Callouts. Display the view
with Hidden Lines Removed.
Illustrations may vary depending on your SOLIDWORKS release version.
PAGE 4 - 40
Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Activity: Detail Drawing - Move Dimensions
Move the linear dimensions in Drawing View1.
209) Zoom to area
View1.
on Drawing
210) Click and drag the vertical
dimension text 10, 29, and 50 to
the right as illustrated.
Create a gap between the extension
lines and the profile lines for the 10mm
vertical dimension.
211) Click the vertical dimension text
10. The vertical dimension text,
extension lines and the profile
lines are displayed in blue.
212) Click and drag the square blue
endpoints approximately 10mms from
the right vertex as illustrated. A gap is
created between the extension line and
the profile.
A gap exists between the profile line and
the leader lines. Drag the blue endpoints to
a vertex, to create a gap.
The smallest linear dimension should
be placed closest to the profile.
Note the default settings for a drawing
document under Dimensions. Trailing
zeroes Dimensions default: Smart. Trailing
zeroes Tolerances default: Remove only
on zero. Trailing zeroes Properties default:
Show.
Fit the drawing to the Graphics window.
213) Press the f key.
PAGE 4 - 41
Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Insert dimensions into Drawing View3.
214) Click inside the Drawing View3
boundary. The Drawing View3
PropertyManager is displayed.
215) Click Hidden Lines Removed.
216) Click the Model Items
tool from
the Annotation tab in the
CommandManager. The Model
Items PropertyManager is displayed.
217) Select Entire model from the Source box. Drawing View3 is
displayed in the Destination box. Accept the default settings.
218) Click OK
from the Model Items PropertyManager.
Move the vertical dimensions.
219) Click and drag the two vertical Slot Cut dimensions, 10 to the right
of the Section arrow as illustrated.
220) Flip the arrows to the inside.
221) Click the dimension text and drag the text outside the leader lines.
Hide all other dimensions and annotations as illustrated.
222) If needed, enter 2X for the Radius as illustrated.
Fit the drawing to the Graphics window.
223) Press the f key.
Save the GUIDE drawing.
224) Click Save
.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Insert dimensions into the Auxiliary View.
225) Click inside the Auxiliary view boundary.
226) Click the Model Items
Drawing tool. The Model Items
PropertyManager is displayed.
227) Select Entire Model from the Source box. Auxiliary is
displayed in the Destination box. View your options from the
Dimensions box.
228) Click the Hole Wizard Locations button from the Dimensions
box. Note: Do not click the Hole Callout button at this time.
You will manually create the Hole Wizard Callout in the
drawing.
229) Click OK
from the Model Items PropertyManager.
230) Move the dimensions off the view as illustrated. If needed
zoom in on the dimensions to move them.
The dimensions for the Linear Pattern of Holes are determined
from the initial Hole Wizard position dimensions and the
Linear Pattern dimensions. Your dimensioning standard
requires the distance between the holes in a pattern.
Do not over dimension. In the next steps, hide the existing
dimensions and add a new dimension.
In the next section, if
needed, click Options,
Document Properties,
Dimensions from the
Menu bar. Uncheck the
Add parentheses by
default box. Click OK.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Hide the following dimensions.
231) Right-click 25.
232) Click Hide. Right-click 6. Click Hide.
233) Right-click M3x0.5. Click Hide. Note: if required, hide any other
dimensions or annotations. Do not hide the 12 dimension.
To show a hidden dimension, click View, Hide/Show,
Annotations from the Menu bar.
Add a dimension.
234) Click Smart Dimension
from the Annotation toolbar. The
Dimension PropertyManager is displayed.
235) Click Smart dimensioning in the Dimension Assist Tools box.
236) Click the center point of the bottom left hole. Click the center
point of the bottom right hole.
237) Click a position below the profile as illustrated.
238) Check OK
from the Dimension PropertyManager.
Save the drawing.
239) Click Save
. View the results.
Move Dimensions to a Different View
Move the linear dimension 10 that defines the Linear Hole Pattern feature from Drawing
View3 (Top) to the Auxiliary view. When moving dimensions from one view to another,
utilize the Shift key and only drag the dimension text. Release the dimension text inside
the view boundary. The text will not switch views if positioned outside the view
boundary.
Activity: Move Dimensions to a Different View
Move dimensions from the Top view to the Auxiliary view.
240) Press the z key approximately 4 times to view the dimensions in the Top view.
241) Hold the Shift key down. Click and drag the vertical dimension 10 between the 2 holes from
the Top view to the Auxiliary view.
242) Release the mouse button and the Shift key when the mouse pointer is inside the
Auxiliary view boundary.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
243) Click and drag the dimensions off the Auxiliary view.
244) Click and drag the VIEW A-A text off the view boundary. View the
results.
Save the drawing.
245) Click Save
. View the results.
Dimension Holes and the Hole Callout
Simple holes and other circular
geometry are dimensioned in various
ways: Diameter, Radius and Linear
(between two straight lines).
Diameter
Radius
PAGE 4 - 45
Linear
Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
The holes in the Auxiliary view require a
diameter dimension and a note to represent
the six holes. Use the Hole Callout to
dimension the holes. The Hole Callout
function creates additional notes required to
dimension the holes.
The dimension standard symbols are displayed automatically
when you use the Hole Wizard feature.
Activity: Dimension Holes and the Hole Callout
Dimension the Linear Pattern of Holes.
246) Click the Annotation tab from the CommandManager.
247) Click the Hole Callout
tool. The Hole Callout tool inserts
information from the Hole Wizard.
248) Click the circumference of the lower left circle in the
Auxiliary view as illustrated. The tool tip M3x0.5 Tapped
Hole1 of GUIDE is displayed.
249) Click a position to the bottom left of the Auxiliary view.
The Hole Callout text displayed in the Dimension
Text box depends on the options utilized in the Hole
Wizard feature and the Linear Pattern feature.
Remove trailing zeroes for ASME Y14 millimeter display.
250) Select .1 from the Primary Unit
Tolerance/Precision box.
251) Click OK
from the Dimension
PropertyManager. The Hole Callout is
deactivated.
Display the Hole Wizard Callout
information automatically by selecting the
Hole callout button in the Model Items
PropertyManager.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Know inch/mm decimal display. The ASME Y14.5-2009 standard states:
•
For millimeter dimensions <1, display the leading zero. Remove trailing zeroes.
•
For inch dimensions <1, delete the leading zero. The dimension is displayed with the
same number of decimal places as its tolerance.
Symbols are located on the bottom of the Dimension Text dialog box. The current text is
displayed in the text box. Example:
•
<NUM_INST>: Number of Instances in a Pattern.
•
<MOD-DIAM>: Diameter symbol
•
<HOLE-DEPTH>: Deep symbol
•
<HOLE-SPOT>: Counterbore symbol
•
<DIM>: Dimension value 3.
.
.
.
Fit the Drawing to the Graphics window.
252) Press the f key.
If needed, insert dimension text.
253) Click inside the Drawing View1 boundary.
The Drawing View1 PropertyManager is
displayed.
254) Click the Guide Hole dimension
∅10.015/10.000 in Drawing View1.
255) Enter text THRU in the Dimension box. THRU is displayed on
the drawing in blue.
256) Click OK
from the Dimension PropertyManager.
Save the drawing.
257) Click Save
.
Access Notes, Hole Callouts and other Dimension Annotations through the
Annotations toolbar menu. Access Annotations with the right mouse button, and click
Annotations.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Center Marks and Centerlines
Hole centerlines are composed of alternating long and short
dash lines. Centerlines indicate symmetry. Centerlines also
identify the center of a circle, axes or cylindrical geometry.
Center Marks represents two perpendicular intersecting
centerlines. The default Size and display of the Center Mark
is set in Options, Document Properties, Dimensions,
Centerlines/Center Marks as illustrated.
Center Marks are inserted on view creation by default. Modify the position and size of
the Center Marks. The following three steps illustrate how to create a new Center Mark.
Activity: Center Marks and Centerlines
Insert a Center mark into the Front view. If a Center mark exists, skip the next few steps.
258) Click inside the Drawing View1
boundary.
259) Click the Center Mark
tool from the
Annotation tab in the
CommandManager. The Center Mark
PropertyManager is displayed.
260) Click the Guide Hole circumference.
The Center mark is inserted.
261) Click OK
from the Center Mark
PropertyManager.
Dimension standards require a gap between the Center Mark and the
end points of the leader line. Currently, the leader line overlaps the
Center Mark.
Insert Centerlines into the drawing views.
262) Click the Centerline
tool from the Annotation tab in the
CommandManager. The Centerline PropertyManager is displayed.
263) Check the Select View box
in the Auto Insert dialog
box.
264) Click inside the Front view,
Drawing View1 boundary.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
265) Click inside the Detail view boundary. Centerlines are displayed.
266) Click inside the Section view boundary. Centerlines are
displayed.
267) Click OK
from the Centerline PropertyManager.
Save the drawing.
268) Click Save
.
Activate the Top view and insert Center marks.
269) Click inside the Drawing View3 boundary.
270) Click the Center Mark
tool from the Annotation tab in the
CommandManager. The Center Mark PropertyManager is
displayed.
271) Uncheck the Slot center mark box.
272) Click the four arcs. The center marks are displayed.
273) Uncheck the Use document defaults box.
274) Enter 1mm for Mark size.
275) Un-check the Extended lines box. Accept the default settings.
276) Click OK
results.
277) Click Save
from the Center Mark PropertyManager. View the
. View the results.
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Insert an Annotation Centerline.
278) Click the Centerline
tool from the Annotation
tab. The Centerline PropertyManager is
displayed.
279) Click the left edge of the GUIDE hole.
280) Click the right edge of the GUIDE hole. The
centerline is displayed.
281) Click OK
from the
Centerline PropertyManager.
Save the drawing.
282) Click Save
results.
. View the
Click the dimension Palette
button to display the dimension palette. Use the
rollover
dimension palette in the Graphics window to save mouse travel
to the Dimension PropertyManager. Click on a dimension in a
drawing view, and modify it directly from the dimension
palette.
Modify the Dimension Scheme
The current feature dimension scheme represents the design intent of the GUIDE part.
The Mirror Entities Sketch tool built symmetry into the Extruded Base sketch. The
Mirror feature built symmetry into the Slot Cuts.
The current dimension scheme for the Slot Cut differs from the ASME 14.5M Dimension
Standard for a slot. Redefine the dimensions for the Slot Cut according to the ASME 14.5
Standard.
The ASME 14.5 Standard requires an outside dimension of a slot. The radius value is not
dimensioned. The left Slot Cut was created with the Mirror feature.
Create a centerline and dimension to complete the detailing of the Slot Cut. Sketch the
vertical dimension, 10. The default arc conditions are measured from arc center point to
arc center point. The dimension extension lines are tangent to the top arc and bottom arc.
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Fundamentals of Drawing
Activity: Modify the Dimension Scheme
Modify the Slot Cut dimension scheme.
283) Right-click Change Layer in the Graphics window. The Change
document Layers dialog box is displayed.
284) Click the Layer Properties icon from the Change document layer
dialog box. The Layers dialog box is displayed.
Set the Show/Hide icon to modify the status of the Layers.
285) Click the Dims Layer Show. Dims is the current layer.
286) Click the Notes Layer Show.
287) Click the Hidden Dims Layer
Hide.
288) Click the Format Layer Show.
289) Click OK from the Layers
dialog box.
290) Click Zoom to Area
from the Heads-up View toolbar.
291) Zoom in on the right slot of Drawing View3 as illustrated.
Hide the dimension between the two arc center points.
292) Click the 10 dimension on the right bottom side of Drawing
View3.
293) Click the Others tab in the Dimension
PropertyManager.
294) Select Hidden Dims from the Layer box in
the Dimension PropertyManager.
295) Click OK
from the Dimension
PropertyManager. The 10 dimension is not
displayed.
Create a vertical dimension.
296) Click the Smart Dimension
Sketch
tool. The Dimension PropertyManager is
displayed.
297) Click Smart dimensioning from the
Dimension Assist Tools box.
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Fundamentals of Drawing
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298) Click the top of the top right arc. Do not select the Center Mark of
the Slot Cut.
299) Click the bottom of the bottom right arc. Do not select the Center
Mark of the Slot Cut.
300) Click a position to the right of Drawing View3.
301) Click the Leaders tab in the Dimension
PropertyManager.
302) Click Max for First arc condition.
303) Click Max for Second arc condition.
304) Click OK
from the Dimension PropertyManager.
Modify the Radius text to 2X R.
305) Click 2X R4 in Drawing View2.
306) Delete R<DIM> in the Dimension text box.
307) Click Yes to the Confirm dimension value text override
message.
308) Enter R for Dimension text.
309) Click OK
from the Dimension PropertyManager.
Add dimensions.
310) Click the Smart Dimension
tool.
311) Click Smart dimensioning from the Dimension Assist
Tools box.
312) Click the left vertical line of the right Slot Cut.
313) Click the right vertical line of the right Slot Cut.
314) Click a position below the horizontal profile line.
Drawing dimensions are added in the drawing
document. Model dimensions are inserted from the
part. Utilize Smart Dimension in the GUIDE drawing
to create drawing dimensions.
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Fundamentals of Drawing
315) Click the centerline.
316) Click the left Slot Cut arc top center point.
317) Click a position above the top horizontal line as illustrated. 30 is the dimension.
Insert a Reference dimension in the Section view.
318) Click the left centerline in the Section view.
319) Click the right centerline in the Section view.
320) Click a position below the bottom horizontal line.
321) Click the Add Parenthesis box in the Dimension Text.
322) Click OK
from the Dimension PropertyManager.
Save the drawing.
323) Click Save
.
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Fundamentals of Drawing
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Design parts to maximize symmetry and geometric relations to fully define sketches.
Minimize dimensions in the part. Insert dimensions in the drawing to adhere to
machining requirements and Dimension Standards.
Examples: Insert reference dimensions by adding parentheses and redefine a slot
dimension scheme according to the ASME Y14.5 standard.
Additional Information Dimensions and Annotations are found in SOLIDWORKS
Help Topics. Keywords: Dimensions (circles, extension lines, inserting into drawings,
move, parenthesis), Annotations (Hole Callout, Centerline and Center Mark).
Review Dimensions and Annotations
You inserted part dimensions and annotations into the drawing. Dimensions were moved
to new positions. Leader lines and dimension text were repositioned. Annotations were
edited to reflect the drawing standard.
Centerlines and Center Marks were inserted into each view and were modified in the
PropertyManager. You modified Hole Callouts, dimensions, annotations and referenced
dimensions to conform to the drawing standard.
GUIDE Part - Insert an Additional Feature
The design process is dynamic. We do not live in a static world. Create and add an edge
Fillet feature to the GUIDE part. Insert dimensions into Drawing View1; (Front).
Activity: GUIDE Part - Insert an Additional Feature
Open the Guide part.
324) Right-click inside the Drawing View1 boundary.
325) Click Open Part from the Content toolbar.
If the View menu is not displayed, right-click Select. Tools
in the Annotation toolbar remain active until they are deactivated.
Display Hidden Lines to select edges to fillet.
326) Click Wire Frame
from the Heads-up View toolbar.
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Display an Isometric view.
327) Click Trimetric view
from the Heads-up View
toolbar or from the Orientation dialog box.
Create a Fillet feature.
328) Click the Fillet
feature tool. The Fillet
PropertyManager is displayed. Click the Manual tab.
329) Click the Constant Size Fillet type.
330) Enter 1mm in the Radius box. Symmetric is selected
by default.
331) Click the hidden edge as illustrated.
332) Click the other 3 edges. Each edge is added to the
Items to Fillet list. Accept the default settings.
333) Click OK
from the Fillet PropertyManager. Fillet1 is
displayed in the FeatureManager.
Save the GUIDE part.
334) Click Save
.
Open the Drawing.
335) Right-click the GUIDE Part
FeatureManager.
icon in the
336) Click Open Drawing. The GUIDE drawing is displayed.
Fit the drawing to the Graphics window.
337) Press the f key. Note: Hide any unwanted annotations.
Display the GUIDE features.
338) Expand Drawing View1 from the FeatureManager.
339) Expand the GUIDE part from the FeatureManager.
340) Click Fillet1 from the Drawing FeatureManager. Insert the
dimensions for the Fillet1 feature on the Dims Layer. The current
layer should be Dims. If required, select Dims.
The Model Items, Import into drawing view, Import items into
all views option insert dimensions into the Section view and Detail view before other
types of views on the drawing. The Fillet feature dimension in the part is displayed in the
Section view.
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Fundamentals of Drawing
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Insert dimensions into Drawing View1.
341) Click the Model Items
tool from the Annotation tab. The Model Items PropertyManager
is displayed. Accept the default conditions.
342) Click OK
from the Model Items PropertyManager. Note: Hide any unwanted annotation
or dimension in the Detail view.
Position the Fillet text.
343) Use the Shift key to move the R1 text
from Drawing View1 to the Section view.
344) Click and drag the R1 text off the profile
in the Section view. The R1 text is
displayed either on the left or right side of
the Section view. Note: It may come in
directly into the Section view.
Save the GUIDE drawing.
345) Click Save
.
General Notes and Parametric Notes
Plan ahead for general drawing notes. Notes provide relative part or assembly
information. Example: Material type, material finish, special manufacturing procedure or
considerations, preferred supplier, etc.
Below are a few helpful guidelines to create general drawing notes:
•
Use capital letters.
•
Use left text justification.
•
Font size should be the same size as the dimension text.
Create Parametric notes by selecting dimensions in the drawing. Example: Specify the
Fillet radius of the GUIDE as a note in the drawing. If the radius is modified, the
corresponding note is also modified.
Hide superfluous feature dimensions. Do not
delete feature dimensions. Recall a hidden
dimension by using the View, Hide/Show,
Hide/Show Annotations from the Menu bar.
Utilize a Layer to Hide/Show superfluous feature
dimensions with the Layer on/off icon.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Activity: General Notes and Parametric Notes
Locate the R1 text used to create the edge Fillet.
346) Position the mouse pointer over
the R1 text in the Section view. The
text displays the dimension name:
“D1@Fillet1 of Guide.”
Insert a Parametric drawing note.
347) Click the Notes layer from the
Layer toolbar.
348) Click the Note
tool from the
Annotation tab in the
CommandManager. The Note
PropertyManager is displayed.
349) Click a start point in the lower left corner of the
Graphics window, to the left of the Title block,
below Drawing View1.
Type two lines of notes in the Note text box.
350) Line 1: Enter 1. ALL ROUNDS.
351) Press the Space key.
352) Click R1. The radius value R1 is added to the text
box.
353) Press the Space key.
354) Enter MM.
355) Press the Enter key.
356) Line 2: Enter 2. REMOVE ALL BURRS.
357) Click OK
from the Note PropertyManager.
Do not double dimension a drawing with a note and the
corresponding dimension. Hide the radial dimension.
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Fundamentals of Drawing
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Hide the R1 dimension in the drawing.
358) Click the R1 text in the Section view.
359) Click Hidden Dims from the Layer drop-down menu.
360) Click OK
from the Dimension PropertyManager. R1 is hidden.
361) View the updated drawing.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
An Engineering Change Order (ECO) or Engineering Change Notice (ECN) is written for
each modification in the drawing. Modifications to the drawing are listed in the Revision
Table.
Obtain the ECO number before you institute the change to manufacturing.
Revision Table
The Revision Table provides a drawing history. Changes to the document are recorded
systematically in the Revision Table. Insert a Revision Table into the GUIDE drawing.
The default columns are as follows: Zone, Rev, Description, Date and Approved.
Zone utilizes the row letter and column number contained in the drawing border.
Position the Rev letter in the Zone area. Enter the Zone letter/number.
Enter a Description that corresponds to the ECO number. Modify the date if required.
Enter the initials/name of the engineering manager who approved the revision.
Activity: Revision Table
Insert a Revision table.
362) Click None from the Layer drop-down menu.
363) Click the Revision Table tool from the Consolidated toolbar in the
CommandManager. The Revision Table PropertyManager is displayed.
Accept the defaults.
364) Click OK
from the Revision Table PropertyManager.
The Revision table is displayed in the top right corner of
the Sheet.
365) Zoom in on the first row in the table.
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Insert a row. Create the first revision.
366) Right-click the Revision Table.
367) Click Revisions, Add
Revision. The Revision letter A
and the current date are
Revision
displayed. The
Symbol is displayed on the
mouse pointer.
368) Click the top face of the
GUIDE in the Isometric view to
place the
illustrated.
icon as
369) Click OK
from the Revision Symbol
PropertyManager.
370) Double-click the text box under the Description
column.
371) Enter ECO 32510 RELEASE TO
MANUFACTURING for DESCRIPTION.
372) Click a position outside of the text box.
373) Double-click the text box under APPROVED.
374) Enter Documentation Control Manager’s Initials, DCP.
375) Click a position outside of the text box.
376) View the results. The ZONE box is updated by the software.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Part Number and Document Properties
Engineers manage the parts they create and modify. Each part
requires a Part Number and Part Name. A part number is a
numeric representation of the part. Each part has a unique
number. Each drawing has a unique number. Drawings
incorporate numerous part numbers or assembly numbers.
There are software applications that incorporate unique part
numbers to create and perform:
•
Bill of Materials
•
Manufacturing procedures
•
Cost analysis
•
Inventory control/Just in Time (JIT)
You are required to procure the part and drawing numbers from
the documentation control manager.
Utilize the following prefix codes to categories, created parts and
drawings. The part name, part number and drawing numbers are
as follows:
Category:
Prefix:
Part Name:
Part Number:
Drawing Number:
Machined Parts
56-
GUIDE
ROD
PLATE
56-A26
56-A27
56-A28
56-22222
56-22223
56-22224
Purchased Parts
99-
FLANGE BOLT
99-FBM8x1.25
999-551-8
Assemblies
10-
GUIDE-ROD
10-A123
10-50123
Link notes in the Title block to SOLIDWORKS Properties. The title of the drawing is
linked to the GUIDE Part Description, GUIDE-SUPPORT.
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Engineering Design with SOLIDWORKS® 2019
Activity: Part Number and Document Properties
Enter Summary information for the GUIDE drawing.
377) Click File, Properties from the Menu bar. The Summary
Information dialog box is displayed.
378) Click the Summary tab.
379) Enter your initials for Author. Example: DCP.
380) Enter GUIDE, ROD for Keywords.
381) Enter GUIDE for customer ABC for Comments.
Select the Custom tab. Add additional drawing information.
382) Click the Custom tab. View the information in the rows.
383) Click inside the Property Name cell as illustrated.
384) Select DrawnBy from the
drop-down menu.
385) Click inside the Value / Text
Expression cell.
386) Enter your initials. Example:
DCP.
387) Click inside the Property
Name cell.
388) Select DrawnDate from the
drop-down menu.
389) Click inside the Value / Text
Expression cell.
390) Enter the date.
391) Click inside the Property Name cell.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
392) Click inside the
Property Name cell.
393) Select Number from
the drop-down menu.
394) Click inside the Value /
Text Expression cell.
395) Enter 56-22222.
396) Click OK from the
Summary Information
dialog box.
The DrawnBy,
DrawnDate, and Revision Property are updated in the Title block.
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Fundamentals of Drawing
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Link the Number Property to the DWG. NO.
397) Click inside Sheet1.
398) Right-click Edit Sheet Format.
Edit the DWG NO.
399) Double-click the GUIDE text in the DWG NO. box.
The Formatting and Note PropertyManager is
displayed.
400) Delete GUIDE. Note: The Formatting dialog is still
active.
401) Click the Link to Property
Properties dialog box.
icon in the
402) Select Number from the Link to Property
drop-down menu.
403) Click OK from the Link to Property box. The
number is displayed in the DWG. NO. box.
404) Click OK
from the Note PropertyManager.
405) Right-click Edit Sheet.
Fit the drawing to the Graphics window.
406) Press the f key. The drawing remains in the
Edit Sheet Format mode.
Save the Drawing.
407) Click Save
.
Define Custom Properties for Material and Surface Finish in the GUIDE part. Return to
the GUIDE drawing to complete the Title block. The design team decided that the
GUIDE part would be fabricated from 304 Stainless Steel. There are numerous types of
Stainless steels for various applications. Select the correct material for the application.
This is critical!
AISI 304 was set in the part. Open the GUIDE part and create the Material Custom
Property. The AISI 304 value propagates to the drawing. Surface Finish is another
important property in machining. The GUIDE utilizes an all around 0.80μm high grade
machined finish. The numerical value refers to the roughness height of the machined
material. Surface finish adds cost and time to the part. Work with the manufacturer to
specify the correct part finish for your application.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Create the Material Custom Property.
408) Open the GUIDE part.
409) Click the Configuration PropertyManager
icon.
410) Right-click Default[GUIDE].
411) Click Properties. The Configuration Properties
PropertyManager is displayed.
412) Click the Custom Properties button.
413) Click the Configuration Specific tab.
Specify the Material.
414) Click inside the Property Name box.
415) Select Material from the drop-down menu.
416) Click inside the Value/Text Expression box.
417) Select Material from the drop-down menu.
Determine the correct units before you create Custom
Properties linked to Mass, Density, Volume, Center of Mass,
Moment of Inertia, etc. Recall Weight = Mass *Gravity. Modify
the Title block text to include “g” for gravity, SI units in the
Weight box.
Specify the Finish.
418) Click inside the second row under the Property Name.
419) Select Finish from the drop-down menu.
420) Enter 0.80 for Value/Text Expression as illustrated.
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Engineering Design with SOLIDWORKS® 2019
421) Click OK from the Summary Information box.
422) Click OK
from the Configuration Properties
PropertyManager.
Return to the GUIDE drawing.
423) Return to the GUIDE drawing. The Material
Custom Property displays AISI 304 in the
MATERIAL block and 0.80 in the FINISH block.
424) Right-click Edit Sheet Format.
Insert a micrometer symbol.
425) Double-click 0.80. The Formatting toolbar is
displayed.
426) Click SWGrekc from the Formatting toolbar for
Font.
427) Press the m key to display the Greek letter μ. μ
is the Greek letter for micro.
428) Click Century Gothic for Font. Enter m for
meter. The text reads μm for micrometer. Click
a position outside the text box.
Return to the Edit Sheet mode.
429) Right-click in the Graphics window.
430) Click Edit Sheet. The Title block is displayed in
black.
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Fundamentals of Drawing
Fit the drawing to the Graphics window.
431) Press the f key.
432) Drag the views and annotations if required for spacing.
Save the GUIDE drawing.
433) Click Save
.
Establish Custom Properties early in the design process. The MATERIAL and
FINISH Custom Properties are established in the part and propagate to the Title block in
the drawing.
Create engineering procedures to define the location and values of Custom
Properties. The REVISION Custom Property was created in the drawing in the
REVISION Table. The REVISION Custom Property can also be established in the part
and propagate to the drawing. Does the part or the drawing control the revision? Your
company’s engineering procedures determine the answer.
Additional annotations are required for drawings. Utilize the Surface Finish
tool to
apply symbols to individual faces/edges in the part or in the drawing. When an assembly
contains mating parts, document their relationship. Add part numbers in the Used On
section. Additional annotations are left as an exercise.
Exploded View
Add an Exploded view and Bill of Materials to the drawing.
Add the GUIDE-ROD assembly Exploded view. The Bill of
Materials reflects the components of the GUIDE-ROD
assembly. Create a drawing with a Bill of Materials.
Perform the following steps:
•
Create a new drawing from the B-ANSI-MM Drawing
Template.
•
Display the Exploded view of the assembly.
•
Insert the Exploded view of the assembly into the
drawing.
•
Label each component with Balloon text.
•
Create a Bill of Materials.
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Activity: Exploded View
Close all parts and drawings.
434) Click Windows, Close All from the Menu bar.
Open the GUIDE-ROD assembly.
435) Open the GUIDE-ROD assembly from the PROJECTS folder. The
GUIDE-ROD assembly is displayed in the Graphics window with
the updates to the GUIDE.
Create a new drawing.
436) Click Make Drawing from Part/Assembly from the
Menu bar.
437) Double-click B-ANSI-MM from the MY-TEMPLATES
tab. The Model View PropertyManager is displayed.
438) Click Cancel
from the Model View PropertyManager.
439) Click the View Palette tab in the Task Pane.
440) Click the drop-down arrow and click GUIDE-ROD.
Insert the GUIDE-ROD assembly using the View Palette tool.
441) Click and drag the *Isometric view from the View Palette onto
Sheet1. The Drawing View1 PropertyManager is displayed.
Note: You have the option to click and drag the *Isometric
Exploded view directly into the sheet.
Display a Shaded With Edges, 1:1 scale view.
442) Click Shaded With Edges in the Display Style box.
443) Click the Use custom scale box.
444) Select User Defined.
445) Select 1:1 from the drop-down menu.
The View Palette contains images of Standard views,
Annotation views, Section views, Flat patterns (sheet metal
parts) and Isometric Exploded view (if an Exploded
configuration is created) of the selected model.
Click the Browse button in the View Palette to locate
additional models.
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Fundamentals of Drawing
Display an Exploded view.
446) Click inside the Isometric view boundary.
447) Right-click Show in Exploded State. Note: You can also click
Properties, check Show in Exploded State, and click OK from
the Drawing View Properties dialog box.
448) Click OK
from the Drawing View1 PropertyManager.
Note: The Explode view was created in Project 3. The Show in
exploded state option is visible only if an Exploded
configuration exists in the assembly.
Fit the drawing to the Graphics window.
449) Press the f key.
450) Click OK
from the Drawing View1
PropertyManager.
The drawing filename is the same as the
assembly filename.
Save the GUIDE-ROD drawing.
451) Click Save As from the Menu bar.
452) Select ENGDESIGN-W-SOLIDWORKS\PROJECTS
for folder. GUIDE-ROD is displayed for the File name.
Save the drawing.
453) Click Save.
Balloons
Label each component with a unique item number. The item
number is placed inside a circle. The circle is called Balloon text.
List each item in a Bill of Materials table. Utilize the Auto Balloon
tool to apply Balloon text to all components. Utilize the Bill of
Materials tool to apply a BOM to the drawing.
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The Circle Split Line option contains the Item Number and Quantity. Item number is
determined by the order listed in the assembly FeatureManager. Quantity lists the number
of instances in the assembly.
Magnetic lines are a convenient way to align balloons along a line at any angle. You
attach balloons to magnetic lines, choose to space the balloons equally or not, and move
the lines freely, at any angle in the drawing.
Activity: Auto Balloons with Magentic Lines
Insert Automatic Balloons.
454) Click inside the Isometric view boundary.
455) Click Auto Balloon
from the Annotation
toolbar. The Auto Balloon PropertyManager
is displayed. Accept the default settings.
456) Click and drag the balloons. Note: Balloon
locations will vary.
457) Click OK
from the Auto Balloon
PropertyManager.
Display Item Number and Quantity.
458) Shift-Select the six Balloon text. The
Balloon PropertyManager is displayed.
459) Select Circular Split Line for Settings from
the drop-down menu. View the results in the
Graphics window.
460) Click OK
from the Balloon
PropertyManager.
461) Click and drag the circular split line balloons.
Save the drawings.
462) Click Save
.
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Fundamentals of Drawing
The symbol “?” is displayed when the Balloon attachment is not
coincident with an edge or face. ASME Y14.2 defines the attachment
display as an arrowhead for Edge and a dot for Face.
Arrowhead display is located under Options,
Document Properties, Annotations or under the
Leaders tab in the Dimension PropertyManager.
Note: Edge/vertex attachment is selected by
default.
Each Balloon references a component with a
SOLIDWORKS File Name. The SOLIDWORKS
File Name is linked to the Part Name in the Bill
of Materials by default. Customize both the
Balloon text and the Bill of Materials according
to your company’s requirements.
Bill of Materials
The Bill of Materials reflects the components of the GUIDE-ROD assembly. The Bill of
Materials is a table in the assembly drawing that contains Item Number, Quantity, Part
Number and Description by default. Insert additional columns to customize the Bill of
Materials.
Part Number and Description are Custom Properties entered in the individual part
documents. Insert additional Custom Properties to complete the Bill of Materials.
Activity: Bill of Materials
Create a Bill of Materials.
463) Click inside the Isometric view in the
GUIDE-ROD drawing.
464) Click the Bill of Materials
tool from the
Annotation tab. The Bill of Materials
PropertyManager is displayed.
465) Click the Open table template for Bill of
Materials
icon.
466) Double-click bom-material.sldbomtbt from
the Select BOM Table dialog box.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
467) Click OK
from the Bill of
Materials PropertyManager.
468) Click a position in the upper
left corner of Sheet1.
The Bill of Materials requires
some editing. The current part
file name determines the PART
NUMBER values. Material for
the GUIDE was defined in the
Material Editor and the Material
Custom Property.
The current part description determines the DESCRIPTION values. Redefine the PART
NUMBER, Description and Material in the BOM. Your BOM values and rows may vary.
The final BOM should display the below PART NUMBERS, DESCRIPTION, and
MATERIAL.
Modify the GUIDE part number in the BOM.
469) Right-click on the GUIDE in the Isometric view.
470) Click Open Part. The Guide FeatureManager is displayed.
Click the GUIDE ConfigurationManager
tab.
471) Right-click Default [GUIDE] in the ConfigurationManager.
472) Click Properties. The Configuration Properties
PropertyManager is displayed.
473) Select User Specified Name in the spin box from the Bill of
Materials Options. Enter 56-A26 for the Part Number in the
from the
Bill of Materials Options. Click OK
Configuration Properties PropertyManager. Default [56-A26]
is displayed in the ConfigurationManager.
474) Return to the FeatureManager.
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Fundamentals of Drawing
Return to the GUIDE-ROD drawing.
475) Click Window, GUIDE-ROD - Sheet1 from the Menu bar.
Modify the ROD part number.
476) Right-click on the ROD in the Isometric view.
477) Click Open Part. The ROD FeatureManager is displayed.
478) Click the ROD ConfigurationManager
tab.
479) Right-click Default [ROD] from the ConfigurationManager.
480) Click Properties.
481) Select User Specified Name from the drop-down menu in the
Bill of Materials Options.
482) Enter 56-A27 for the Part Number in the Bill of Materials
Options.
483) Click OK
from the Configuration Properties
PropertyManager.
484) Return to the FeatureManager.
Return to the GUIDE-ROD drawing.
485) Click Window, GUIDE-ROD - Sheet1 from the Menu bar.
Modify the PLATE part number.
486) Right-click on the PLATE in the Isometric view.
487) Click Open Part.
488) Click the PLATE ConfigurationManager
tab.
489) Right-click Default [PLATE] from the ConfigurationManager.
490) Click Properties.
491) Select User Specified Name in the spin box from the Bill of
Materials Options.
492) Enter 56-A28 for the Part Number in the Bill of Materials
Options.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
493) Click OK
from the Configuration Properties
PropertyManager.
494) Return to the FeatureManager.
Return to the GUIDE-ROD drawing.
495) Click Window, GUIDE-ROD - Sheet1 from the Menu bar.
The flange bolt is a SOLIDWORKS library part. Copy the
part with a new name to the ENGDESIGN-WSOLIDWORKS\PROJECTS folder with the Save As
command.
Utilize the flange bolt Part Number for File name.
Modify the flange bolt.
496) Right-click a flange bolt in the Isometric view.
497) Click Open Part.
Save the flange bolt.
498) Click Save As from the Menu bar.
499) Click Save As from the dialog box.
500) Select the ENGDESIGN-W-SOLIDWORKS\PROJECTS
folder.
501) Enter 99-FBM8-1-25 for the File name.
502) Enter FLANGE BOLT M8x1.25x30 for Description.
503) Click Save.
Return to the GUIDE-ROD drawing.
504) Press Ctrl+Tab to return to the GUIDE-ROD drawing.
Open the GUIDE-ROD assembly.
505) Right-click inside the Isometric view boundary on Sheet1.
506) Click Open Assembly. The GUIDE-ROD assembly
FeatureManager is displayed.
507) Expand the Hardware folder from the FeatureManager. The
flange bolt displays the new name.
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Fundamentals of Drawing
Return to the GUIDE-ROD drawing.
508) Press Ctrl+Tab to return to the GUIDE-ROD drawing.
509) Address the Drawing Number, DrawnBy, DrawnDate, etc. as illustrated below. Make any
additional changes if needed to the drawing.
Fit the drawing to the Graphics window.
510) Press the f key.
If the Bill of Materials does not update when changes to a part have been made, then
open the assembly. Return to the drawing. Issue a Rebuild.
As an exercise, update the Bill of Materials and fill in all of the columns and address the
Title block as illustrated below.
Save the GUIDE-ROD drawing.
511) Click Save
.
512) Click Yes to update.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Review of the Parametric Notes, Revision Table and
Bill of Materials
You created a Parametric note in the drawing by inserting a part
dimension into the Note text box. The Revision Table was
inserted into the drawing to maintain drawing history.
The Bill of Materials listed the Item Number, Part Number,
Description, Material and Quantity of components in the
assembly.
You developed Custom Properties in the part and utilized the
Properties in the drawing and Bill of Materials.
Drawings and Custom Properties are an integral part of the design process. Part,
assemblies and drawings all work together.
From your initial design concepts, you created parts and drawings that fulfill the design
requirements of your customer.
Refer to Help, Online Tutorial, Lesson3-Drawings exercise and Advanced Drawings
exercise for additional information.
Magnetic lines are a convenient way to align balloons along a line at any angle. You
attach balloons to magnetic lines, choose to space the balloons equally or not, and move
the lines freely, at any angle in the drawing.
Insert a Center of Mass Point into a Drawing
Add a center of mass (COM) point to parts, assemblies and drawings.
COM points added in component documents also appear in the assembly document. In a
drawing document of parts or assemblies that contain a COM point you can show and
reference the COM point.
Add a COM to a part or assembly document by clicking Center of Mass (Reference
Geometry toolbar) or Insert, Reference Geometry, Center of Mass
or check the
Create Center of Mass feature box in the Mass Properties dialog box.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
The center of mass of the model is displayed in the graphics window and in the
FeatureManager design tree just below the origin.
updates when the model’s center of mass changes.
The position of the COM point
The COM point can be suppressed and unsuppressed for configurations.
You can measure distances and add reference dimensions between the COM point and
entities such as vertices, edges and faces.
If you want to display a reference point where the CG was located at some particular
point in the FeatureManager, you can insert a Center of Mass Reference Point. See
SOLIDWORKS Help for additional information.
Add a center of mass (COM) point to a drawing view. The center of mass is a selectable
entity in drawings and you can reference it to create dimensions.
In a drawing document, click Insert, Model Items. The Model Items PropertyManager is
displayed. Under Reference Geometry, click the Center of Mass icon. Enter any needed
additional information. Click OK from the Model Items PropertyManager. View the
results in the drawing.
The part or assembly needs to have a COM before you can view the COM in the
drawing. To view the center of mass in a drawing, click View, Hide/Show, Center of
mass.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Project Summary
In this Project you developed two drawings: GUIDE drawing and the GUIDE-ROD
assembly drawing. The drawings contained three standard views, (principle views) and
an Isometric view. The drawings utilized a custom Sheet Format containing a Company
logo, Title block and Custom Properties. You incorporated the GUIDE part dimensions
into the drawing.
The Drawing toolbar contained the Model View tool and the Projected View tool to
develop standard views. Additional views were required and utilized the Auxiliary, Detail
and Section view tools. Dimensions were inserted from the part and added to the
drawing.
You used two major design modes in the drawings: Edit Sheet Format and Edit Sheet.
The detailed GUIDE drawing included annotations and Custom Properties. The GUIDEROD assembly drawing incorporated a Bill of Materials and additional Custom
Properties.
bar.
To show a hidden dimension, click View, Hide/Show, Annotations from the Menu
Questions
1. Describe a Bill of Materials and its contents in a drawing.
2. Name the two major design modes used to develop a drawing in SOLIDWORKS.
3. Identify seven components that are commonly found in a Title block.
4. Describe a procedure to insert an Isometric view into a drawing.
5. In SOLIDWORKS, Drawing file names end with a ______ suffix.
6. In SOLIDWORKS, Part file names end with a ______ suffix.
7. Can a part and drawing have the same name?
8. True or False. In SOLIDWORKS, if a part is modified, the drawing is automatically
updated.
9. True or False. In SOLIDWORKS, when a dimension in the drawing is modified, the
part is automatically updated.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
10. Name three guidelines to create General Notes in a drawing.
11. True or False. Most engineering drawings use the following font: Times New
Roman - All small letters.
12. What are Leader lines? Provide an example.
13. Name the three ways that Holes and other circular geometry can be dimensioned.
14. Describe Center Marks. Provide an example.
15. How do you calculate the maximum and minimum variation?
16. Describe the differences between a Drawing Template and a Sheet Format.
17. Describe the key differences between a Detail view and a Section view.
18. Describe a Revision table and its contents.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Exercises
Exercise 4.1: L - BRACKET Drawing
Create the A (ANSI) Landscape - IPS - Third
Angle L-BRACKET drawing as illustrated
below.
•
First create the part from the drawing, then
create the drawing.
•
Insert the Front, Top, Right and Shaded
Isometric view using the View Palette tool
from the Task Pane. Hide the Top view.
•
Insert dimensions into the Sheet.
•
Address the extension line gap between the
feature lines.
•
Think about the proper view and position for
your dimensions. Use the default A (ANSI)
Landscape Sheet Format/Size.
•
Insert Custom Properties: Material,
Revision, Number, Description, DrawnBy,
DrawnDate, and CompanyName.
•
Material is 1060 Alloy.
•
Insert Company and
Third Angle projection
icons. The icons are
available in the
homework folder.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Exercise 4.2: T - SECTION Drawing
Create the A (ANSI) Landscape - IPS - Third Angle
T-SECTION drawing as illustrated below.
•
First create the part from the drawing, then create the
drawing. Use the default A (ANSI) Landscape Sheet
Format/Size.
•
Insert the Front, Top, Right and
Shaded Isometric view using the View
Palette tool from the Task Pane. Hide
the Top view.
•
Insert dimensions into the Sheet.
Think about the proper view for your
dimensions.
•
Address the extension line gap
between the feature lines.
•
Insert Custom Properties: Material,
Revision, Number, Description,
DrawnBy, DrawnDate, and
CompanyName.
•
Material is 1060 Alloy.
•
Insert Company and
Third Angle projection
icons. The icons are
available in the
homework folder.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Exercise 4.3: FLAT BAR - 3HOLE Drawing
Create the A (ANSI) Landscape - IPS - Third Angle
3HOLES drawing as illustrated. Do not display Tangent
Edges. Do not dimension to hidden lines.
•
First create the part from the drawing, then create
the drawing. Use the default A (ANSI) Landscape
Sheet Format/Size.
•
Insert the Front, Top and Shaded Isometric view as
illustrated. Insert dimensions.
•
Address the extension line gap between the feature
lines.
•
Address proper drawing view display mode.
•
Add a Smart (Linked)
Parametric note for
MATERIAL THICKNESS in
the drawing as illustrated. Hide
the dimension in the Top view.
Insert Centerlines. Address
extension line gaps.
•
Modify the Hole dimension
text to include 3X THRU EQ.
SP. and 2X as illustrated.
•
Insert Custom Properties:
Material, Revision, Number,
Description, DrawnBy,
DrawnDate, and
CompanyName.
•
Material is 1060 Alloy.
•
Insert Company and Third
Angle projection icons. The
icons are available in the
homework folder.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Exercise 4.4: CYLINDER Drawing
Create the A (ANSI) Landscape - IPS - Third Angle CYLINDER
drawing as illustrated. Do not display Tangent Edges. Do not
dimension to hidden lines.
•
First create the part from the drawing; then create the
drawing. Use the default A (ANSI) Landscape Sheet
Format/Size.
•
Insert drawing views as illustrated. Insert dimensions. Think
about the proper view for your
dimensions.
•
Address the extension line gap
between the feature lines.
•
Address proper drawing view display
mode.
•
Insert Company and Third Angle
projection icons. The icons are
available in the homework folder.
•
Insert Centerlines, Center Marks and
Annotations.
•
Insert Custom Properties:
Material, Revision, Number,
Description, DrawnBy,
DrawnDate, and
CompanyName.
•
Material is AISI 1020.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Exercise 4.5: PRESSURE PLATE Drawing
Create the A (ANSI) Landscape - IPS - Third Angle PRESSURE PLATE drawing. Do
not display Tangent edges. Do not dimension to
hidden lines.
•
First create the part from the drawing, then
create the drawing. Use the default A (ANSI)
Landscape Sheet Format/Size.
•
Insert the Front and Right view as
illustrated. Insert dimensions.
•
Address the extension line gap
between the feature lines.
•
Think about the proper view for
your dimensions.
•
Address proper drawing view
display mode.
•
Insert Company and Third Angle
projection icons. The icons are
available in the homework folder.
•
Insert Centerlines, Center Marks
and Annotations.
•
Insert Custom
Properties: Material,
Revision, Number,
Description, DrawnBy,
DrawnDate, and
CompanyName.
•
Material is 1060 Alloy.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Exercise 4.6: PLATE-1 Drawing
Create the A (ANSI) Landscape - MMGS - Third Angle PLATE-1
drawing as illustrated below. Do not display Tangent edges. Do
not dimension to Hidden lines.
•
First create the part from the drawing, then create the drawing.
Use the default A (ANSI) Landscape
Sheet Format/Size.
•
Insert the Front and Right view as
illustrated. Insert dimensions.
•
Address the extension line gap between
the feature lines.
•
Address proper drawing
view display mode.
•
Insert Company and
Third Angle projection
icons. The icons are
available in the
homework folder.
•
Insert Centerlines,
Center Marks and
Annotations.
•
Insert Custom
Properties: Material,
Revision, Number,
Description,
DrawnBy,
DrawnDate, and
CompanyName.
•
Material is 1060
Alloy.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Exercise 4.7: SHAFT-1 Drawing
Create the A (ANSI) Landscape - IPS - Third Angle PLATE-1
drawing as illustrated below. Do not display Tangent edges.
Phantom lines are fine.
•
First create the part from the drawing, then create the drawing.
Use the default A (ANSI) Landscape Sheet Format/Size.
•
Insert the Front, Right (Break), Isometric
and Auxiliary Broken Crop view as
illustrated. Insert dimensions.
•
Address the extension line gap between
the feature lines.
•
Address proper drawing view
display mode.
•
Insert Company and Third Angle
projection icons. The icons are
available in the homework folder.
•
Insert Centerlines, Center Marks
and Annotations.
•
Insert Custom Properties:
Material, Revision, Number,
Description, DrawnBy,
DrawnDate, and CompanyName.
•
Material is 1060 Alloy.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Exercise 4.8: TUBE-2 Drawing
Create the A (ANSI) Landscape - IPS - Third Angle TUBE-2
drawing as illustrated below. Do not display Tangent edges.
Phantom lines are fine.
•
First create the part from the drawing, then create the drawing.
Use the default A (ANSI) Landscape Sheet Format/Size.
•
Insert views as illustrated.
•
Insert dimensions.
•
Address extension line gaps.
•
Insert Company and
Third Angle projection
icons. Icons are available
in the homework folder.
•
Insert Centerlines, Center
Marks and Annotations.
•
Address proper drawing
view display mode.
•
Insert Custom
Properties:
Material,
Revision,
Number,
Description,
DrawnBy,
DrawnDate, and
CompanyName.
•
Material is 6061
Alloy.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Exercise 4.9: PLATE Drawing
Create the A (ANSI) Landscape - IPS - Third Angle FLAT-PLATE
drawing as illustrated below. Do not display Tangent edges.
Phantom lines are fine.
•
First create the part from the drawing, then create the drawing.
Use the default A (ANSI) Landscape Sheet Format/Size.
•
Insert the Front, Top, Right and
Isometric views as illustrated.
•
Insert dimensions.
•
Address proper drawing view display
mode.
•
Address extension line gaps.
•
Insert Company and Third Angle
projection icons. The icons are
available in the homework folder.
•
Insert Centerlines, Center Marks
and Annotations.
•
Insert Custom Properties:
Material, Revision,
Number, Description,
DrawnBy, DrawnDate,
and CompanyName.
•
Material is 1060 Alloy.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Exercise 4.10: FRONT-SUPPORT Assembly
Drawing
Create the A (ANSI) Landscape - Third Angle
FRONT-SUPPORT Assembly drawing with a Bill of
Materials and balloons.
•
Open the FRONT-SUPPORT assembly on your
local hard drive. The FRONT-SUPPORT assembly
is located in the Chapter 4 Homework folder.
•
Use the default A (ANSI) Landscape Sheet Format/Size.
•
Insert an Isometric Shaded
With Edges view.
•
Insert a Bill of Materials.
Display the top level subassemblies and parts only in
the Bill of Materials.
•
Select bommaterial.sldbomtbt from the
Select BOM Table dialog
box.
•
Resize the text in the
Title box and DWG.
NO. box.
•
Insert Circular AutoBalloons as illustrated.
•
Insert Custom
Properties: Revision,
Number, Description,
DrawnBy, DrawnDate,
and CompanyName.
•
Insert Company and
Third Angle projection
icons. The icons are
available in the
homework folder.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Exercise 4.11: VALVE PLATE Drawing.
Create the A-ANSI Third Angle VALVE PLATE Drawing
document according to the ASME 14.5 standard.
•
Open the VALVE PLATE part. The VALVE PLATE part is
located in the Chapter 4 Homework folder.
•
Create the VALVE PLATE drawing.
•
Insert three views: Front, Top and Right.
•
Address proper drawing view display mode.
•
Utilize the Tolerance/Precision option to modify the decimal
place value.
•
Utilize Surface
Finish, Geometric
Tolerance and
Datum Feature
tools in the
Annotation toolbar.
•
Create the following
drawing.
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Engineering Design with SOLIDWORKS® 2019
Fundamentals of Drawing
Exercise 4.12: GUIDE eDrawing
Create the GUIDE eDrawing. A SOLIDWORKS eDrawing is a
compressed document that does not require the corresponding part
or assembly. A SOLIDWORKS eDrawing is animated to display
multiple views and dimensions. Review the eDrawing
SOLIDWORKS Help Topics for additional functionality. The
eDrawings Professional version contains additional options to mark
up a drawing.
•
Open the GUIDE drawing. Note: The Finished GUIDE drawing
is located in the Chapter 4 Homework folder.
•
Click File, Publish to eDrawing from the Main menu.
•
Click the Animate button. Click Play. View the drawing.
•
Click Stop. View
the Menu features.
Return to the initial
drawing. Click the
Reset button.
•
Save the GUIDE
eDrawing.
•
Close the
eDrawing.
Refer to Help, Online
Tutorial, eDrawings
exercise for additional
information.
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Fundamentals of Drawing
Engineering Design with SOLIDWORKS® 2019
Notes:
PAGE 4 - 92